Top 10 Events#
https://www.ncei.noaa.gov/data/global-historical-climatology-network-daily/doc/GHCND_documentation.pdf
import warnings
warnings.filterwarnings("ignore")
import os
import sys
import folium
import numpy as np
sys.path.append("../../../../indicators_setup")
from ind_setup.plotting_int import plot_timeseries_interactive
from ind_setup.colors import get_df_col
from ind_setup.tables import plot_df_table
sys.path.append("../../../functions")
from data_downloaders import GHCN
Define location and variables of interest#
country = 'Palau'
vars_interest = ['TMIN', 'TMAX']
Get Data#
df_country = GHCN.get_country_code(country)
print(f'The GHCN code for {country} is {df_country["Code"].values[0]}')
The GHCN code for Palau is PS
df_stations = GHCN.download_stations_info()
df_country_stations = df_stations[df_stations['ID'].str.startswith(df_country.Code.values[0])]
print(f'There are {df_country_stations.shape[0]} stations in {country}')
There are 13 stations in Palau
GHCND_dir = 'https://www.ncei.noaa.gov/data/global-historical-climatology-network-daily/access/'
Using Koror Station#
Analysis of how much the maximum and minimum temperatures over time are changing.
The analysis of the difference between these 2 variables will allow us to know how the daily variability is being modified
id = 'PSW00040309' # Koror Station
dict_min = GHCN.extract_dict_data_var(GHCND_dir, 'TMIN', df_country_stations.loc[df_country_stations['ID'] == id])[0][0]
dict_max = GHCN.extract_dict_data_var(GHCND_dir, 'TMAX', df_country_stations.loc[df_country_stations['ID'] == id])[0][0]
import pandas as pd
st_data = pd.concat([dict_min['data'], (dict_max['data'])], axis=1).dropna()
st_data['diff'] = st_data['TMAX'] - st_data['TMIN']
# st_data = st_data.resample('Y').mean()
Monthly#
st_data = st_data.resample('M').mean()
nevents = 10
top_10 = st_data.sort_values(by='TMAX', ascending=False).head(nevents)
dict_plot = [{'data' : st_data, 'var' : 'TMAX', 'ax' : 1, 'label' : 'TMAX'}]
scatter_dict = [{'data' : top_10, 'var' : 'TMAX', 'ax' : 1, 'label' : 'Top 10 Events'}]
fig = plot_timeseries_interactive(dict_plot, trendline=True, scatter_dict = scatter_dict);
# fig.write_image("figura.png", format="png")
fig = plot_df_table(np.round(top_10, 2)[['TMAX']])
Annual#
st_data = st_data.resample('Y').mean()
top_10 = st_data.sort_values(by='TMAX', ascending=False).head(10)
dict_plot = [{'data' : st_data, 'var' : 'TMAX', 'ax' : 1, 'label' : 'TMAX'}]
scatter_dict = [{'data' : top_10, 'var' : 'TMAX', 'ax' : 1, 'label' : 'Top 10 Events'}]
fig = plot_timeseries_interactive(dict_plot, trendline=True, scatter_dict = scatter_dict);
fig = plot_df_table(np.round(top_10, 2)[['TMAX']])